Ancient Maize Followed Two Paths Into The Southwest

Plant geneticist Jeffrey Ross-Ibarra and an international team determined that maize moved into the Southwest via highland and low coastal routes. (Karin Higgins | UC Davis)

January 08, 2015

Posted by Pat Bailey

Study findings show how climatic and cultural impacts influenced the genetic makeup of maize.

After it was first domesticated from the wild teosinte grass in southern Mexico, maize, or corn, took both a high road and a coastal low road as it moved into what is now the U.S. Southwest, reports an international research team that includes a UC Davis plant scientist and maize expert.

The study, based on DNA analysis of corn cobs dating back over 4,000 years, provides the most comprehensive tracking to date of the origin and evolution of maize in the Southwest and settles a long debate over whether maize moved via an upland or coastal route into the U.S.

Study findings, which also show how climatic and cultural impacts influenced the genetic makeup of maize, are reported Jan. 8 in the journal Nature Plants.

The study compared DNA from archaeological samples from the U.S. Southwest to that from traditional maize varieties in Mexico, looking for genetic similarities that would reveal its geographic origin.

“When considered together, the results suggest that the maize of the U.S. Southwest had a complex origin, first entering the U.S. via a highland route about 4,100 years ago and later via a lowland coastal route about 2,000 years ago,” said Jeffrey Ross-Ibarra, an associate professor in the Department of Plant Sciences.

The study further provided clues to how and when maize adapted to a number of novel pressures, ranging from the extreme aridity of the Southwest climate to different dietary preferences of the local people.

Excavations of multiple stratigraphic layers of Tularosa cave in New Mexico allowed researchers to compare genetic data from samples from different time periods.

“These unique data allowed us to follow the changes occurring in individual genes through time,” said lead author Rute Fonseca of the University of Copenhagen. Researchers used these data to identify genes showing evidence of adaptation to drought and genes responsible for changes in starch and sugar composition leading to the development of sweet corn, desired for cultivation by indigenous people and later Europeans.

The international team of authors also included Bruce D. Smith of the National Museum of Natural History at the Smithsonian Institution and M. Thomas P. Gilbert, University of Copenhagen. The study was funded primarily by the Danish Council for Independent Research and a Marie Skłowdowska-Curie fellowship from the European Commission.

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